Transponder useful in a system for identifying objects
First Claim
1. In combination for use in a transponder for sending signals to a reader to identify an object associated with the transponder,antenna means for receiving interrogating signals from the reader, the antenna having a particular impedance,means responsive to such received signals for storing energy,switching means having first and second states of operation and having a low impedance in the first state of operation and a high impedance in the second state of operation, the switching means including a semi-conductor having first, second and third electrodes,a data source for providing a sequence of binary indications individual identifying the object,the first and third electrodes of the semi-conductor being connected between the energy storing means and the data source,means including the data source and the switching means for defining a load, with the switching means having an impedance in the first state of operation corresponding to the impedance of the antenna means and having an impedance in the second state of operation considerably higher than the impedance of the antenna means, andmeans responsive to the sequence of binary indications in the data source for introducing the sequence of binary indications to the second electrode of the semi-conductor to obtain the operation of the switching means in the first and second states of operation in accordance with the sequence of binary indications individually identifying the object.
8 Assignments
0 Petitions
Accused Products
Abstract
A reader transmits interrogating rf signals to a transponder including an antenna having a particular impedance. The signals received by the antenna are converted to a direct voltage which is introduced to a first terminal of a switch such as an emitter of a semi-conductor device having conductive and non-conductive states of operation. A second terminal of the switch, such as the base of the semi-conductor device, receives a voltage variable between first and second magnitudes in accordance with a pattern of binary 1'"'"'s and 0'"'"'s in a data source such as a read-only memory (ROM). This pattern of binary 1'"'"'s and 0'"'"'s is individual to an object identified by the transponder. The variable voltage on the base of the semi-conductor device causes the emitter-collector current of the semi-conductor device to vary between first and second amplitudes. When this current has the first amplitude, the impedance of the semi-conductor device and the ROM substantially matches the antenna impedance. When this current has the second amplitude, the impedance of the semi-conductor device and the ROM is substantially greater than the antenna impedance. Capacitance may be connected to the collector of the semi-conductor device and the ROM to store energy in accordance with the current flow through the semi-conductor device. This stored energy provides for an energizing of the semi-conductor device and the ROM. A diode may be connected between the emitter and collector of the semi-conductor device to increase the second amplitude of the current through the semi-conductor device.
138 Citations
13 Claims
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1. In combination for use in a transponder for sending signals to a reader to identify an object associated with the transponder,
antenna means for receiving interrogating signals from the reader, the antenna having a particular impedance, means responsive to such received signals for storing energy, switching means having first and second states of operation and having a low impedance in the first state of operation and a high impedance in the second state of operation, the switching means including a semi-conductor having first, second and third electrodes, a data source for providing a sequence of binary indications individual identifying the object, the first and third electrodes of the semi-conductor being connected between the energy storing means and the data source, means including the data source and the switching means for defining a load, with the switching means having an impedance in the first state of operation corresponding to the impedance of the antenna means and having an impedance in the second state of operation considerably higher than the impedance of the antenna means, and means responsive to the sequence of binary indications in the data source for introducing the sequence of binary indications to the second electrode of the semi-conductor to obtain the operation of the switching means in the first and second states of operation in accordance with the sequence of binary indications individually identifying the object.
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5. In combination for use in a transponder for sending signals to a reader to identify an object associated with the transponder,
antenna means for receiving interrogating signals from the reader and for transmitting to the reader signals in a pattern to identify the object, rectifier means connected to the antenna means for storing energy received by the antenna means, a semi-conductor having a base, an emitter and a collector and having first and second states of operation and operative in the first state to provide a low impedence and operative in the second state to provide a high impedance, means for introducing the voltage from the rectifier means to the emitter of the semi-conductor, a data source constructed to provide a sequence of signal cycles coding for binary 1'"'"'s and binary 0'"'"'s in an individual pattern identifying the object, means for introducing the signal cycles in the sequence from the data source to the base of the semi-conductor to obtain an operation of the semi-conductor in the first and second states in accordance with the sequence of signal cycles coding for the binary 1'"'"'s and binary 0'"'"'s in the individual pattern identifying the object, and means connected to the collector of the semi-conductor for providing for a flow of current through the semi-conductor between the emitter and the collector of the semi-conductor in accordance with the sequence of the signal cycle introduced to the base of the semi-conductor.
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9. In combination for use in a transponder for sending signals to a reader to identify an object associated with the transponder,
means for receiving interrogating rf signals from the reader and for sending to the reader the signals identifying the object, means responsive to the received signals for producing a voltage, semi-conductor switching means having first, second and third electrodes, the semi-conductor switching means having conductive and non-conductive states and having an impedance decreasing with increases in the amplitude of the current through the semi-conductor switching means, means responsive to the voltage produced by the receiving means for biasing the first electrode of the semi-conductor switching means to a state of conductivity, data source, means for providing a code of binary 1'"'"'s and binary 0'"'"'s individual to the object and for introducing, to the second electrode of the semi-conductor switching means, signals having first and second amplitudes in a pattern dependent upon the binary 1'"'"'s and binary 0'"'"'s provided in the data source means to obtain in the semi-conductor switching means the flow of currents at first and second amplitudes between the first and third electrodes of the semi-conductor switching means, and means operatively coupled to the data source means and the third electrode of the semi-conductor switching means for applying a voltage to the data source means to obtain the generation of the signals by the data source means and for applying a voltage to the third electrode of the semi-conductor switching means to obtain a flow of current between the first and third electrodes of the semi-conductor switching means in accordance with the generation of signals by the data source means.
Specification